DE2936580A1 - WATERPROOFING MEASUREMENT OF BENTONITE-GELLED, NON-AQUEOUS LIQUID, METHOD FOR THEIR PRODUCTION AND THEIR USE - Google Patents

Description

Clem 36

American Colloid Company

S100 Suffield Court, Skokie, Illinois 60075, V.St.A.

Waterproofing compound made of bentonite-gelled, non-aqueous liquid, process for its production and its use

The invention relates to an improved, gelled bentonite mass of a malleable, clay-like consistency, while practically all of the bentonite is in a non-swollen state is retained to prevent water from seeping through structures or structures. In particular The invention relates to a gelled bentonite mass which a highly swellable bentonite clay, an organic liquid and a gelling agent for the organic liquid to provide a malleable and malleable, non-aqueous bentonite clay that can be placed in a desired location can be used and shaped as desired may block a possible flow of water along a path of a possible leak is, while practically 100% of the bentonite in a non-hydrated or non-gelled form.

It is already known to obtain structures resistant to seepage or leakage by adding a mass of swellable bentonite is used around the path of possible seepage or flow. One such a method and mass for preventing the passage or flow of water is in U.S. Patent 2 277 286. As is explained in detail there,

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Commercial bentonite is used to block leakage or overflow of seepage water, and structures different types are made safe from leakage by the path of the flow of the water with bentonite-like or highly colloidal clay, which has the ability to swell and gelatinize on contact with water owns, is blocked. One of the clays that turned out to be best suited for this purpose was real bentonite, that occurs in the area of Wyoming and South Dakota, USA, although others are highly colloidal or bentonite-like Clays which have the ability to swell and gelatinize in water to a substantial extent are useful are. The same clays are also useful in practicing the present invention.

According to one embodiment, as described in US Pat. No. 2,277,286, a stiff, putty-like mass is produced by adding 1 to 1.5 times the amount of water to the bentonite. The resulting putty-like mass, of which a portion of the bentonite is in a hydrated or swollen state, forms a mass which, as a result of the partial swelling of the bentonite, is sufficiently cohesive to adhere to surfaces as long as the mass remains moist , while about 70 to 80 % of their potential absorbency and swellability are retained. According to this embodiment of US Pat. No. 2,277,286, construction of costly and complicated shapes is no longer required, but about 20 to 30% of the bentonite clay in the putty-like mass is through the required pre-swelling as a result of the initial hydration thereof to form a cohesive mass rendered ineffective, and furthermore, the mass, once moistened, must be kept moist in order to achieve the desired cohesion or cohesion.

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The object of the present invention is to overcome these disadvantages turn off and a gelled Sentoniwjaasse from kiccä'nn-Iieher Establish consistency, which their cohesiveness or cohesion during extended periods of time Maintains contact with air without the need to preliminarily use any proportion of the bentonite contained therein to hydrate.

The object of the invention is therefore to provide a non-aqueous, gelled bentonite mass, which on a Structure can be fixed at a desired location in the desired amount to prevent water seeping through the Structure to prevent such a mass according to the invention its cohesion without costly, the mass surrounding Maintains shapes and the bentonite is in a substantially non-hydrated, non-swollen form.

Another object of the invention is to provide a non-aqueous gelled bentonite composition comprising a swellable bentonite clay, a non-aqueous liquid and a gelling agent, the latter being a cohesive one or coherent mass results when the non-aqueous liquid, the gelling agent and the bentonite clay together be combined.

The non-aqueous, gelled bentonite compositions according to the invention have a cohesive or cohesive, putty-like consistency and can be deformed, bent, packed into cavities and rolled up as coils. The non-aqueous, gelled bentonite compositions according to the invention can contain the bentonite in virtually 100 % non-hydrated form, including a non-aqueous liquid, a gelling agent for this non-aqueous liquid and sufficient non-swollen bentonite with the gelled liquid to form a cohesive or cohesive paste are mixed together.

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The inventive, non-aqueous, gelled, practically non-hydrated bentonite-containing compositions can over Hoisting in benton foundations to seal the foundation cracks, when the bentonite mass comes into contact with water.

Furthermore, the non-aqueous, gelled bentonite compositions of the invention are useful for preventing water seepage through expansion joints in foundations such as in cement foundations to prevent.

The non-aqueous, gelled bentonite compositions according to the invention are also able to be used as plates, rods, tubes or similar items for a special purpose are suitable to be shaped.

The invention is explained in more detail with reference to the following detailed description.

The non-aqueous, gelled bentonite mass according to the invention comprises a highly swellable bentonite clay, preferably a material such as that found in Wyoming, USA, a non-aqueous one Liquid and a gelling agent for the non-aqueous Liquid. Sufficient gelling agent is added to the non-aqueous liquid to form a gel. A highly swellable bentonite clay, preferably in the form of a fine powder, is then added to the gel in a suitable amount added to achieve a cohesive or cohesive, paste-like consistency of the mass, which is in a desired shape can be formed without wetting the bentonite. Generally the non-aqueous liquid does about 4-0 to 85% by weight of the liquid-gelling agent combination and the gelling agent is used in an amount ranging from about 15 to 60 percent by weight of the combination of liquid gelling agent added. The bentonite clay

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is preferably incorporated into the mass by adding the clay to the gelled liquid in a sufficient amount Formation of a cohesive mass is added, generally in an amount in the range of 25 to 75 wt .-%, based on the total bentonite composition or mass. The order of addition is not critical, with the exception of the determination of the amounts of gelling agents and bentonite to achieve a special, paste-like consistency.

Suitable non-aqueous liquids include any organic Liquids which can be gelled by any suitable gelling agent. For example, can Mineral oil, white spirit, naphtha, kerosene, microcrystalline wax, linseed oil, aromatic liquids such as xylene, toluene, denatured ethanol, trichlorethylene, solvents such as n-butyl alcohol, methyl isobutyl ketone, n-butyl acetate, toluene and the like can be used. The more viscous, non-aqueous liquids are preferred so that a lesser one Amount of gelling agent is required to provide a gel of good cohesiveness or cohesion, so that less bentonite is required to produce a cohesive or cohesive mass.

Suitable gelling agents for the aforementioned organic liquids include paraffin wax, aluminum stearate, calcium stearate, lithium stearate, sodium N-octadecyl terephthalamate, N-coconut gamma-hydroxybutyramide, any of the oil thickening agents such as resins e.g. B. Resins with the trade name Carbopol, aluminum octoate together with a lower alcohol such as methanol or isopropanol, magnesium silicate such as the product known under the trade name Avibest-C, the 37 wt .-% MgO, 43 wt .-% SiO ₂ , 4 wt. -% Fe ₅ O ₃ , hydrated with 12% water at 700 ⁰ C, or the product with the trade name Attagel 50 * which follows

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chemical composition has:

Silicon (SiO ₂ ) 68.0%

Aluminum (Al ₂ O,) 12.0%

Magnesium (MgO) 10.5 %

Iron (Pe ₂ O,) 5.0%

Calcium (CaO) 1.7 %

Phosphorus (P ₂ ¹ V 1.0%

Potassium (K ₂ O) 1.0%

Titanium (TiO ₂ ) 0.7%

other components 0.1%,

Dimethyldioctadecylammonium bentonite (trade name Bentone) or any other gelling agent known an organic or non-aqueous liquid gel and thicken.

You cohesive or cohesive bentonite mass can be used in a very effective way when working with concrete structures will. A concrete foundation is generally poured in segments, the size of a Segment or section depends on the volume of concrete that can be poured in one working day. If two Segments or sections abut each other, they are in a state that is referred to as a "cold connection", at which hair-like cracks exist between the original concrete and the freshly poured concrete. Usually a water stop is used to prevent the flow of water through the "cold junction", however, have Such "water stops" have proven to be very unreliable, sometimes being the result of the Concrete will bend under applied pressure and result in a poor seal. The composition of the invention is suitable over such "cold connections" to be made in concrete,

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by pressing the mass against the concrete wall to get the To cover the connection between the concrete segments or pieces. According to one embodiment, a slot or a channel is formed on an outer surface of the concrete where the two segments or pieces meet, to a well-defined, to be filled with the mass Area to manufacture. However, a slot is not absolutely necessary, since the gelled mass described here is on sticks to a flat concrete surface.

According to a further embodiment, the composition according to the invention can be water-permeable over a larger surface Carrier plate or such a carrier film are applied, for example a corrugated cardboard in a desired shape to form a plate with an exposed surface, and the exposed side of the plate or the film can against a Structure are pressed to keep the sheet in place over a possible path of flow of water attach.

The invention is illustrated in more detail by means of the following examples.

example 1

In hot mineral oil of 93 '3 ⁰ C was added 25 wt .-%, based on the total amount of input to paraffin wax, and the mixture of oil and wax was vigorously stirred until a gel formed. Then, powdered, highly swellable bentonite clay was added to the gel in an amount of 67% by weight, based on the total mass of gel bentonite, to form a mastic or a paste.

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Example 2

50% by weight, based on the total amount, of paraffin wax was added to warm mineral oil at 79> 5 ^° C., and the mixture of oil-wax was stirred vigorously until a gel was formed. Then powdered, highly swellable bentonite clay from Wyoming was added to the gel in an amount of 53% by weight, based on the total mass of gel bentonite, to form a mastic or a paste. The mass can be kept warm to obtain a less viscous mass, or it can be cooled to room temperature to develop structural rigidity.

The gelled compositions according to the invention contain no water, 30 that nothing of the bentonite expanded or swelled. The mass can appear in cracks on the inside or the outside a leaking structure or a leaking structure are pressed when they become rods, rods, tubes and similar objects has been deformed. Upon contact with water, the bentonite begins to expand or swell when exposed to water from potential leaks comes into contact with the mass, so that further leakage of water is sealed. The inventive Compound can also be used to cover large areas of a leak, for example on concrete of the foam type. The mass can be heated in order to reduce its viscosity, poured onto a base material for example, a single sheet of corrugated cardboard or a cardboard box, with the exposed side pressed into its position of use.

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Claims (16)

Dipl. Chem. Dr. Knud Loremen O Q O C C Q η PMenUmwdt Z 3 O O 3 ö U Mineben J ■ Morassistraße 8 / lV Ttltjon 222000 (area code: 019) Clem 36 American Colloid Company Suffield Court, Skokie, Illinois 60075, V.St.A. Claims 1. Bentonite mass to prevent the flow of water by a structure that hates practically all of the bentonite contained therein in non-hydrated Has shape, characterized in that the bentonite innerhall} a non-aqueous, from a non-aqueous liquid and a suitable gelling agent for this liquid formed gel to form a cohesive mass is dispersed attached to the structure while maintaining a desired, cohesive shape able to adhere. 2. bentonite mass according to claim 1, characterized in that that the non-aqueous liquid comprises an organic liquid and that the mass contains a gel, which is 40 to 85% based on organic liquid the total weight of organic liquid plus gelling agent, 15 to 60% gelling agent for the organic Liquid, based on the total weight of organic liquid plus gelling agent, as well as bentonite in an amount sufficient to create an effective waterproofing around the structure after the hydration Deliver bentonite contains. 030013/0767 3. bentonite mass according to claim 1, characterized in that that the bentonite and the gelling agent in a sufficient Amount to form a firmly coherent, paste-like mass are present. 4. bentonite mass according to claim 1, characterized in that that the bentonite makes up 20 to 75% by weight of the total mass. 5. bentonite composition according to claim 1, characterized in that the non-aqueous liquid and the gelling agent added in a weight ratio of 1: 4 to 4: 1 have been. 6. A process for the production of a gelled bentonite mass which contains practically all of the bentonite contained therein contains in a non-gelled, unswollen form, characterized in that a) a non-aqueous liquid with a gelling agent capable of gelling this liquid in one sufficient amount to gel the non-aqueous liquid to form a non-aqueous gel is mixed; and b) Bentonite particles with this gel in a sufficient amount to form a cohesive or firmly cohesive one Mass of bentonite containing gel are mixed. 7 · The method according to claim 6, characterized in that as non-aqueous liquid, an oil, and a paraffin wax can be used as a gelling agent. 8. The method according to claim 7 »characterized in that the paraffin wax with the oil in an amount in the range from about 25 to 50% by weight, based on oil plus paraffin wax, is mixed. 9. The method according to claim 7, characterized in that a lubricating oil is used as the oil. 10. The method according to claim 7 «characterized in that a mineral oil is used as the oil. 11. The method according to claim 6, characterized in that a bentonite is used which is up to a size has been pulverized in the range of 210 to 20 µm. 12. The method according to claim 6, characterized in that the mass to form a substantially homogeneous Dispersion is mixed vigorously. 13. A method for forming a water barrier for a foundation located in the ground, characterized in that a) a foundation is made in the earth; and b) a quantity of a gelled, waterproofing compound is applied against the foundation, the compound in Form of a gel is used, which bentonite, a non-aqueous liquid and a gelling agent for includes this non-aqueous liquid. 14. The method according to claim I3, characterized in that a compound is used in which the non-aqueous liquid in the gelled waterproofing compound in in an amount of about 30 to 85% by weight based on liquid plus gelling agent. 030013/0767 15. Water-impermeable plate, characterized in that it comprises means for carrying a gelled bentonite mass in plate or film form, the device having a gelled bentonite mass applied to one side thereof and the bentonite mass having bentonite, a non-aqueous liquid and a gelling agent
for this non-aqueous liquid, which are mixed to form a mass which can adhere to the carrier device for the mass in a cohesive or firmly connected form. 16. Plate according to claim I5i, characterized in that the carrier device is a water-permeable plate or
Film containing cellulosic fibers. 030013/0767